JP2000123480A - Signal conversion device and signal conversion method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable surely protecting copyright of a signal to be signal-converted when an input signal is signal-converted and outputted. SOLUTION: In an additional information detecting/discriminating section 4, electronic watermark information and CGMS(copy generation management system) information superimposed and added to an input luminance signal Y and the like are detected, and it is discriminated whether a signal to be converted in a signal conversion section 3 is outputted or not, based on detected additional information. When additional information for prohibiting or limiting duplication is superimposed or added to the input luminance signal Y, a switch circuit 5 for controlling output is turned off, a signal converted in the signal conversion section 3 is prevented from outputting.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a signal conversion apparatus for protecting the copyright of an information signal after signal conversion, for example, when converting an information signal such as a video signal or an audio signal to output. And a signal conversion method.

[0002]

2. Description of the Related Art Various types of software have been provided through various recording media such as video tapes and DVDs (digital video discs), the Internet, and broadcasting media. However, on the other hand, there is a problem that such abundantly provided software may be copied indefinitely, and various countermeasures against copying have been conventionally taken.

For example, with respect to analog video signals, this is not a method of directly prohibiting duplication of analog video signals, but, for example, a VTR as a recording device and an AGC (auto gain control) of a monitor receiver for providing video. There is a method of substantially preventing duplication by utilizing the difference in the method of (1) or the difference in the characteristics of APC (auto phase control).

For example, a VTR performs AGC using a pseudo-synchronous signal inserted into a video signal, and a monitor receiver uses a difference in the AGC method, such as using an AGC method that does not use the pseudo-synchronous signal. In the former example, when recording an analog video signal on an original recording medium, a pseudo-synchronous signal having an extremely large level is inserted as a synchronizing signal for AGC, and the recording VTR is changed from the reproducing VTR to the recording VTR. A pseudo synchronizing signal having an extremely large level is inserted as a synchronizing signal for AGC into a video signal supplied to the AGC.

APC in a VTR follows a color burst signal in a video signal with a short time constant, whereas an APC in a monitor receiver follows an APC characteristic with a relatively long time constant. The latter method is a method of utilizing the difference. When an analog video signal is recorded on the original recording medium, the phase of the color burst signal of the video signal is partially inverted, and the phase is changed from the reproduction VTR to the recording VTR. It outputs a signal in which the phase of a color burst signal is partially inverted as a supplied video signal.

In the case described above, in a monitor receiver receiving an analog video signal from a reproduction VTR, the effect of partial inversion of the phase of a pseudo-synchronous signal or a color burst signal used for APC is considered. The video is normally reproduced without receiving the video.

However, upon receiving an analog video signal from the reproduction VTR into which the pseudo-synchronous signal has been inserted or under which the phase inversion of the color burst signal has been controlled, this is recorded on a recording medium. In a VTR, gain control or phase control based on an input signal cannot be normally performed, and a video signal cannot be normally recorded. Therefore, even if the recorded video signal is reproduced, a normal viewable video can be prevented from being reproduced.

When an analog video signal is handled in this way, duplication is not prohibited, but a reproduced video that can be normally viewed is not obtained. This is a passive copy prevention control. It is.

On the other hand, when dealing with digitized information, for example, a digital video signal, copy control information indicating copy prohibition or copy permission is added to the video signal as digital data, and the data is recorded on a recording medium. Recording or transmission is performed, and direct duplication prevention control such as prohibiting duplication is performed by duplication control information added to the video signal.

For example, when the digital main information to which the copy control information is added and recorded on the recording medium is to be copied to another recording medium, the information is read from the recording medium by a digital reproducing apparatus, The copy control information is obtained together with the digital main information, and the copy control information is sent to the digital recording device through the digital transmission path.

In the digital recording device, a copy control signal is detected from the information received through the digital transmission path, and the content of the control is determined. Then, the recording control of the digital main information is performed based on the determination result.

Therefore, the content of the determined copy control is
When the recording of the digital main information input through the digital transmission path is permitted, the input digital main information is converted into digital information suitable for recording, and is written on another recording medium to execute recording. On the other hand, when the content of the determined copy control is copy prohibition, the recording process of the input digital main information is not performed.

Further, regardless of whether the main information is an analog signal or a digital signal, in addition to copy prohibition and copy permission, generation is restricted so that duplication is permitted once but duplication is prohibited once. Has been considered. As a method of the copy control information that can manage the copy generation,
CGMS (Copy Generation Mana)
Geometry System) and a method using digital watermarking have been proposed.

The digital watermarking process is a process for embedding information as noise in a portion of a video signal or an audio signal that is not important to human perception, that is, a portion that is not redundant to music or video. The additional information embedded in the video signal or the audio signal by such a digital watermarking process is not easily removed from the video signal or the audio signal. On the other hand, it is possible to detect additional information embedded in a video signal or an audio signal from the video signal or the audio signal even after performing a filtering process or a digital compression process in the case of digital information. .

In the case of the copy control system using the digital watermarking process, "copy free (Copy Free)" and "one-time copy (one-generation copy possible) (One C
opt) "" No more copying allowed (No More Cop)
y) ”and“ Absolute duplication prohibited (Never Copy) ”indicate the duplication generation and duplication restriction status of the video signal and audio signal on which the digital watermark information is superimposed.

"Copy Free"
Indicates that the audio signal and the video signal can be freely copied. "Once duplicated (only one generation can be duplicated) (O
neCopy) "indicates that the audio signal and the video signal can be copied only once. "No more copy" means that the audio signal or the video signal is copied from the audio signal or the video signal that can be copied once, and further duplication is prohibited. It is shown that. "Absolute duplication ban (Never C
opt) "indicates that copying is completely prohibited.

If the digital watermark information superimposed on the video signal or the audio signal is "one-time duplication possible (OneCopy)", the recording apparatus compatible with the digital watermark processing (that is, the duplication restriction processing). , It is determined that the duplicate recording of the video signal and the audio signal is possible, and the recording is executed.
Digital watermark information rewritten as “No more copy prohibited” is superimposed on the recorded video signal and audio signal. Then, the digital watermark information superimposed on the video signal or audio signal to be recorded is
"No more copying (No More Copy)"
In the case of (1), in the recording apparatus supporting the digital watermarking process, the execution of the recording is prohibited because the duplicate recording of the video signal and the audio signal is prohibited.

In the CGMS system, for example, in the case of an analog video signal, 2-bit additional information for duplication control is superimposed on a specific one horizontal section in the vertical blanking period. In this method, 2-bit additional information for copy control is added to digital image data and transmitted.

In the case of the CGMS system, the meaning of 2-bit information (hereinafter referred to as CGMS information) is: [00]... Can be copied [10]... Can be copied once (only one generation can be copied) [11] ] ... Reproduction is prohibited (absolute reproduction is prohibited). In the CGMS system, there is no state of “no more duplication prohibited” described above.

The CGMS information added to the video signal is [1
0], the CGMS-compatible recording apparatus determines that the video signal can be duplicated and recorded, and executes recording. However, the recorded video signal has a CGMS rewritten to [11]. Information is added. If the CGMS information added to the video signal to be recorded is [11], the CGMS-compatible recording apparatus prohibits the duplication recording of the video signal and prohibits the execution of the recording.

As described above, in order to protect the copyright of content information such as video signals and audio signals, various anti-duplication measures have been considered. One or more of these measures are used to protect the content information. It is designed to protect copyright.

[0022]

However, even if the main information has been subjected to the above-described anti-duplication measures, it is converted into a signal and added to the main information signal for copyright protection. In some cases, it is not possible to properly protect the copyright of the main information, for example, it becomes possible to copy the main information whose duplication is prohibited due to missing or deteriorated information.

For example, when an analog video signal recorded on a recording medium with CGMS information or the like added thereto during the vertical blanking period is read out and converted into a digital video signal and output, a vertical blanking is performed. Additional information such as CGMS information added during the period disappears. Therefore, in this case, even if CGMS information for inhibiting duplication is added to the original analog video signal, the digital video signal after signal conversion can be duplicated.

In addition, high-definition television signals (hereinafter, referred to as high-definition television signals)
Abbreviated as HDTV. ) And a standard television signal (hereinafter abbreviated as SDTV),
If the conversion of the number of scanning lines of the video signal and the mutual signal conversion between the progressive scanning and the interlaced scanning are performed, the additional information added to the video signal before conversion is deteriorated in the video signal after conversion. And the state of the additional information may change.

Even in such a case, the additional information added to the converted video signal cannot be accurately detected.
It is considered that the converted signal may be able to be duplicated.

As described above, the device that performs signal conversion becomes a so-called bypass device for recording a signal whose duplication is prohibited, and the copyright of the content information whose duplication is prohibited or restricted is changed. It may not be able to protect properly.

For this reason, in a device for performing signal conversion,
It becomes necessary to mount a device for adding additional information used for protecting the copyright to the signal after signal conversion. However, this increases the cost of the device that performs the signal conversion. If the converted signal is an analog audio signal or HDTV, the copyright protection technology for these signals has not yet been completely established. Can not be done.

In view of the above, the present invention provides a signal conversion device and a signal conversion method capable of reliably protecting the copyright of an input signal to be converted when the input signal is converted and output. The purpose is to provide.

[0029]

According to a first aspect of the present invention, there is provided a signal conversion device for performing a signal conversion process on an input signal, the signal conversion device being added to the input signal. Discriminating means for detecting whether or not the additional information indicates the prohibition of copying or the restriction of copying. And a usage restricting means for making the signal after signal conversion from the signal converting means unusable when it is determined that the restriction indicates duplication restriction.

According to the signal conversion device of the first aspect of the present invention, the additional information added to the input signal by the determination means indicates that the duplication of the input signal is prohibited or the duplication is restricted. When it is determined that there is a signal, the use-restricting means makes the converted signal converted by the signal converting means unusable.

As described above, since the use restriction of the signal after the signal conversion is appropriately performed based on the additional information added to the input signal, it is possible to appropriately protect the copyright of the signal to be converted. Will be able to.

According to a second aspect of the present invention, there is provided the signal conversion apparatus according to the first aspect, wherein the input signal is a video signal, and the signal conversion means performs a sequential scan. The present invention is characterized in that interlaced scanning or interlaced scanning is converted into sequential scanning.

According to the conversion apparatus of the second aspect of the invention, the signal conversion means converts the scanning method of the video signal as the input signal. For example, if the input signal is a progressively scanned video signal, the signal conversion means
A video signal of one frame of progressive scanning is separated into a field composed of odd-numbered horizontal lines and a field composed of even-numbered horizontal lines, and is converted into a video signal of interlaced scanning. When the input signal is a video signal of the interlaced scanning method, video signals of continuous fields forming one frame are combined to form a progressively scanned video signal.

As described above, even when the scanning method of the input video signal is converted, the use restriction on the video signal after the signal conversion is appropriately restricted based on the additional information added to the video signal before the signal conversion. Therefore, the copyright of the video signal to be converted can be properly protected.

According to a third aspect of the present invention, there is provided the signal conversion apparatus according to the first aspect, wherein the input signal is a video signal, and the signal conversion means includes a number of scanning lines. Is performed.

According to the signal conversion device of the third aspect, the signal conversion means converts the number of scanning lines of the video signal as the input signal. For example, signal conversion is performed such as increasing the number of scanning lines of 525 input video signals to 720 or 1080, or reducing the number of scanning lines of 1080 input video signals to 720 or 525.

In this case, when the number of scanning lines is increased, the scanning lines are interpolated, and when the number of scanning lines is reduced, the scanning lines are thinned out. As described above, even if the input video signal is converted into a video signal having a different number of scanning lines by performing interpolation or thinning of the scanning lines, the signal is converted based on the additional information added to the video signal before the signal conversion. Since the usage of the converted video signal is appropriately restricted, the copyright of the converted video signal can be appropriately protected.

According to a fourth aspect of the present invention, there is provided the signal conversion device according to the first aspect, wherein the input signal is a video signal, and the signal conversion means is a signal format. The conversion is performed.

According to the signal conversion device of the fourth aspect, the signal conversion means converts, for example, a high-definition television signal and a standard television signal to each other, and a video in an image data format for computer processing. The signal format of an input video signal is converted, such as mutual signal conversion between a signal and a television signal, conversion from an analog video signal to a digital video signal, and conversion of a compression method.

Even in the case where the signal format of the input video signal is converted and output as described above, the use restricting means uses the signal after the signal conversion based on the additional information added to the input video signal before the signal conversion. Since the use restriction on the video signal is appropriately performed, the copyright of the video signal to be converted can be appropriately protected.

The signal converter according to claim 9 is
2. The signal conversion device according to claim 1, wherein the input signal is an audio signal.

According to the signal converter of the ninth aspect, the input signal is an audio signal, and the use of the converted audio signal is restricted based on the additional information added to the input audio signal. Is performed by use restriction means.

As a result, the use restriction of the audio signal after the signal conversion is appropriately performed based on the additional information added to the input audio signal, so that the copyright of the audio signal to be converted is appropriately protected. Be able to be.

According to a thirteenth aspect of the present invention, there is provided the signal conversion device according to the first aspect, wherein the conversion is performed by the signal conversion means based on a result of the determination by the determination means. It is characterized by comprising a notifying means for notifying a use restriction state of a later signal.

According to the signal converter of the thirteenth aspect, based on the result of the determination by the determining means, whether the signal after signal conversion is an outputable signal or an unoutputtable signal is determined.
The user is notified through the notification means.

In this way, when the signal after signal conversion is not output, it is possible to notify the user of the signal conversion device why the signal is not output, so that the reason why the signal after signal conversion is not output is promptly notified. be able to. Therefore, when the signal after the signal conversion is not output, the user is not mistaken for a failure of the device.

A signal conversion device according to a fourteenth aspect is the signal conversion device according to the first aspect, wherein the additional information is digital watermark information formed by a digital watermark technique, Detecting the digital watermark information superimposed on the input signal, and determining whether the detected digital watermark information indicates duplication prohibition or duplication restriction. I do.

According to the signal conversion device of the present invention, the digital watermark information superimposed on the input signal is difficult to remove or falsify and is reliably supplied to the signal conversion device. The digital watermark information is detected by the determining means, and the output of the signal after the signal conversion can be controlled based on the detected digital watermark information information. As a result, it is possible to protect the copyright of the signal that is reliably and accurately converted.

The signal converter according to claim 15 is the signal converter according to claim 1, wherein the input signal is a digital signal, and the discriminating means is added to the digital signal. Is detected, and it is determined whether the detected additional information indicates prohibition of duplication or restriction of duplication.

According to the signal converter of the present invention, when the input signal is, for example, a digital video signal, additional information of the CGMS-D system is added to the digital video signal. By detecting the CGMS information, the output of the video signal after the signal conversion can be appropriately controlled. For example, a digital input signal that is accurately and appropriately converted using the additional information added to the digital signal. The copyright of the signal can be protected.

A signal conversion device according to a sixteenth aspect is the signal conversion device according to the first aspect, wherein a plurality of different types of additional information are added to the input signal. When one of the plurality of different types of additional information indicates that copying is prohibited or that copying is restricted by the means, the use restricting means disables use of the signal after the signal conversion. It is characterized by the following.

According to the signal conversion device of the present invention, each of a plurality of different types of additional information added to the input signal is detected and used for output control of the signal after signal conversion. If any one of the plurality of pieces of additional information prohibits or restricts copying, the signal after signal conversion is made unusable.

Thus, for example, even when one piece of additional information is illegally removed or falsified, the output of the signal after signal conversion can be reliably and appropriately controlled by using the other additional information. To be. Also,
The reliability of the output control of the signal after signal conversion can be improved.

A signal converter according to a seventeenth aspect is the signal converter according to the sixteenth aspect, wherein one of the plurality of different types of additional information is formed by a digital watermarking technique. Digital watermark information.

According to the signal conversion device of the present invention, since the digital watermark information is difficult to remove or falsify,
Even when the additional information other than the digital watermark information is illegally removed or falsified, the digital watermark information remains superimposed on the input signal. Therefore, by using the digital watermark information, the output control of the signal after the signal conversion can be performed reliably and accurately.

The signal conversion device according to claim 18 is the signal conversion device according to claim 1, wherein the input signal is a digital signal provided by being subjected to an encryption process. Features.

According to the signal conversion device of the eighteenth aspect, the input signal is an encrypted digital signal, and the output of the signal after the signal conversion is performed by, for example, CGMS information added to the digital signal. Control can be performed accurately, and output control of the signal after signal conversion is performed in consideration of the presence or absence of key information for decrypting encryption, and the type of device to which the signal after signal conversion is provided. Be able to do so.

[0058]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of a signal conversion device and a signal conversion method according to the present invention will be described below with reference to the drawings.

The signal converter according to this embodiment described below performs signal conversion when an information signal such as a video signal or an audio signal is output after performing signal conversion such as conversion of its signal format. The use of the information signal after signal conversion is restricted based on the additional information added to the previous information signal.

In other words, the signal conversion device according to the embodiment described below performs signal conversion even if, for example, duplication control information added as additional information to the information signal before signal conversion is lost, Based on the additional information added to the information signal, the output of the information signal after signal conversion is restricted, or the information signal is output so that it cannot be used normally, so that the copyright of the information signal is ensured. It is intended to be protected.

Therefore, when the information signal converted by the signal conversion device according to the present invention is a video signal, for example, additional information of the CGMS system (hereinafter referred to as CGMS information) or AGC system AGC pulse signal (pseudo-synchronous signal for preventing duplication of the macro vision system) for disabling the normal use of the duplicated video signal by utilizing the difference of Description will be made assuming that electronic watermark information and the like are added.

When the information signal is a voice signal, S
CMS (Serial Copy Management)
A description will be given assuming that additional information (hereinafter, referred to as SCMS information) of the System (System) method and digital watermark information are added.

In the embodiments described below, the digital watermark information is a spread spectrum signal formed by using a spread spectrum technique. This spread spectrum signal has a PN (Pseudorandom).
Noise (pseudo-noise code) sequence code (hereinafter PN)
Called sign. ) Is used.

[First Embodiment] First, a first embodiment of the signal conversion apparatus according to the present invention will be described.
In the first embodiment, an example in which the signal conversion device according to the present invention is applied to a monitor receiver will be described.

The monitor receiver according to the first embodiment includes:
Receiving the luminance signal Y and the color difference signals RY and BY,
An image formed by these signals is displayed on a CRT (cathode ray tube), and NTSC from the supplied signals.
It is also provided with a function as a signal conversion device for forming a video signal of a system and outputting the video signal.

FIG. 1 is a block diagram for explaining the monitor receiver according to the first embodiment. As shown in FIG. 1, the monitor receiver according to the first embodiment has an input terminal 1 for a color difference signal BY, a color difference signal RY, and a luminance signal Y.
a, 1b, 1c, a CRT display section 2, a signal conversion section 3, an additional information detection / determination section 4, a switch circuit 5, an output terminal 6, a display information generation section 7, an LCD (liquid crystal display) driver 8, and an LCD 9 Things.

As shown in FIG. 1, the input units 1a, 1b,
1c, the color difference signal BY and the color difference signal R-
Y and the luminance signal Y are supplied to the CRT display unit 2 and the signal conversion unit 3.

The CRT display section 2 forms three primary color signals from the supplied luminance signal Y, color difference signal BY, and color difference signal RY, and supplies these to the CRT, thereby forming a CRT.
The video is displayed on the display surface of. Further, as shown in FIG. 1, the signal conversion unit 3 includes a luminance signal Y, a color difference signal BY, and a color difference signal RY in the first embodiment.
To form an NTSC video signal, which is output to the outside through the switch circuit 5 and the output terminal 6.

In the first embodiment, the digital watermark information is superimposed on the luminance signal Y input through the input terminal 1c, and the CGMS information and the copy protection information are provided during the vertical blanking period. A pseudo synchronization signal is added. This luminance signal Y is also supplied to the additional information detection / determination unit 4.

As shown in FIG. 1, the additional information detection determination section 4 includes a digital watermark information detection section 41, a CGMS-A detection section
2. It includes a pseudo synchronizing signal detection unit 43 and an output condition determination unit 44. Then, the additional information detection / determination unit 4
Each of the additional information superimposed or added to the supplied luminance signal Y is detected, and based on the detected additional information, the video signal of the NTSC system formed by being converted in the signal converter 3. Is determined whether or not can be output.

That is, the luminance signal Y input through the input terminal 1 c is supplied to the digital watermark information detecting section 41 of the additional information detecting / determining section 4, the CGMS-A detecting section 42, and the pseudo synchronizing signal detecting section 43. You.

The digital watermark information detecting section 41 outputs the luminance signal Y
The digital watermark information superimposed on the digital watermark is detected. The digital watermark information superimposed on the luminance signal Y is a spread spectrum signal that has been spectrum spread by the PN code as described above. In this case, the spread spectrum signal is
For example, it is reset at a timing synchronized with the video synchronization signal, such as one frame cycle or two frame cycles, and is spread spectrum by a PN code string generated at a sufficiently early cycle synchronized with the video synchronization signal.

Therefore, the digital watermark information detecting section 41 separates the video synchronization signal from the supplied luminance signal Y, and superimposes the luminance signal Y on the luminance signal Y based on the separated video synchronization signal. At the same timing as when the spread spectrum signal is spread and superimposed, a timing signal for generating the same sequence of PN code strings from the beginning is formed.

Using this timing signal, P
By generating an N code sequence and performing spectrum despreading using the N code sequence, digital watermark information, which is a spread spectrum signal superimposed on the luminance signal Y, is detected,
This is supplied to the output condition determination unit 44.

The CGMS-A detector 42 detects CGMS information added to the luminance signal Y from the luminance signal Y. Here, CGMS-A indicates a copy generation restriction system of the CGMS system for an analog video signal, and the CGMS-A detection unit 42 determines a vertical blanking period of the supplied analog luminance signal Y in advance. The CGMS information for the analog video signal superimposed on the horizontal section is detected and supplied to the output condition determination unit 44.

As described above, the pseudo synchronizing signal detecting section 43 is a pseudo synchronizing signal for preventing duplication added to the luminance signal Y in order to disable normal reproduction of the duplicated video signal. Is detected, and the detection result is supplied to the output condition determination unit 44.

The output condition determination unit 44 receives the detection outputs from the digital watermark information detection unit 41, the CGMS-A detection unit 42, and the pseudo synchronizing signal detection unit 43, and supplies them to the monitor receiver of this embodiment. The copied video signal is a signal whose duplication is prohibited, and when the video signal is converted and output, it is impossible to output it because proper duplication control cannot be performed due to lack of additional information. It is determined whether the signal is not a signal. That is, the digital watermark information detection unit 41, the CGM
Based on the detection outputs from the SA detector 42 and the pseudo sync signal detector 43, it is determined whether the NTSC video signal formed by signal conversion in the signal converter 3 is a signal that can be output. .

In the first embodiment, when it is difficult to remove or falsify the luminance signal Y and highly reliable digital watermark information is superimposed, the output condition determination unit 44
Determines whether or not the NTSC video signal from the signal conversion unit 3 can be output based on the digital watermark information.

Therefore, when the digital watermark information is superimposed on the luminance signal Y, and the digital watermark information indicates that the duplication is prohibited or that the duplication is further prohibited, the output condition judging section 44 sets the switch circuit 5 Is formed, and supplied to the switch circuit 5. If the digital watermark information does not prohibit copying, the output condition determining unit 44
To form a control signal for turning on the switch circuit 5
To supply.

When the digital watermark information indicates that copying is prohibited, the switch circuit 5 is turned off, so that the NTSC video signal from the signal conversion circuit 3 is not output to the outside. , Signal conversion circuit 3
The use of the video signal after conversion from is restricted. When the digital watermark information does not indicate copy prohibition, the switch circuit 5 is turned on, so that the NTSC video signal from the signal conversion circuit 3 is output to the outside. As described above, the switch circuit 5 has a function as a use restriction unit of the converted signal in the first embodiment.

When the digital watermark information is not superimposed on the luminance signal Y, the output condition determining section 44
Based on the S information, it is determined whether or not the NTSC video signal from the signal converter 3 can be output. In this case, the output condition determining unit 44 forms a control signal for turning off the switch circuit 5 when the CGMS information indicates that the copy is prohibited, and outputs the switch circuit when the CGMS information does not indicate that the copy is prohibited. 5 to form a control signal.

The output condition judging section 44 outputs the luminance signal Y
When it is determined that there is neither digital watermark information nor CGMS information, a control signal to be supplied to the switch circuit 5 is formed according to the presence or absence of a pseudo-synchronization signal for preventing duplication. In other words, in this case, the output condition determination unit 44
3 is a signal indicating that a pseudo-synchronization signal for preventing duplication has been detected, a signal for turning off the switch circuit 5 is formed. If the signal indicates that the pseudo synchronization signal for prevention has not been detected, a signal for turning on the switch circuit 5 is formed.

In this way, the control signal for switch switching formed in the output condition judging section 44 is supplied to the switch circuit 5, and the switching of the switch is controlled by this control signal as described above. The output of the NTSC video signal from the signal converter 3 is limited.

In the first embodiment, as described above, the output condition judging section 44 outputs the detection output from the digital watermark information detecting section 41, the CGMS-A detecting section 42, and the pseudo synchronizing signal detecting section 43. The control signal for notifying whether the video signal of the NTSC system formed by signal conversion by the signal conversion unit 3 is outputable or not output is formed based on The information is supplied to the display information generator 7.

The display information generating section 7 includes an output condition determining section 44
Forms a display message for notifying whether or not the NTSC video signal from the signal conversion unit 3 can or cannot be output, and supplies this to the LCD 9 through the LCD driver 8. As a result, the LCD 9 informs the user of this embodiment whether or not the converted NTSC video signal can be output.
Can be notified quickly and accurately.

Therefore, even if the switch circuit 5 is turned off based on the control signal from the output condition judging section 44 and the NTSC video signal formed by signal conversion in the signal conversion section 3 is not output, the input signal is not input. The user of the monitor receiver can be notified through the LCD 9 that the converted video signal is prohibited from being copied and the converted signal is not output. Accordingly, when the converted signal is not output from the monitor receiver of the first embodiment, it is not mistaken for a failure of the monitor receiver.

Next, with reference to the flow chart of FIG. 2, the output control of the NTSC video signal formed by signal conversion performed in the monitor receiver of the first embodiment will be described. The operation of the determination unit 4 will be mainly described.

As described above, in the monitor receiver of this embodiment, the luminance signal Y, the color difference signals BY, and RY supplied through the input terminals 1a, 1b, and 1c are transmitted to the CRT display unit 2, The signal is supplied to the signal converter 3. When the power of the monitor receiver of this embodiment is turned on, the luminance signals Y,
Display processing of an image formed by the color difference signals BY and RY is performed, and the signal conversion section 3 performs signal conversion to form an NTSC video signal.

At the same time, the luminance signal Y is supplied to the additional information detection / judgment section 4 and converted into a signal N.
The process shown in FIG. 2 is executed in order to control the output of the video signal of the TSC system. In this case, the luminance signal Y supplied through the input terminal 1c is output to the digital watermark information detecting section 41, the CGMS-A detecting section 42 of the additional information detecting / determining section 4,
Digital watermark information that is supplied to each of the pseudo synchronization signal detection units 43 and is superimposed or added to the luminance signal Y;
A process for detecting CGMS information and a pseudo-synchronous signal for duplication prevention is performed, and a detection output is supplied to the output condition determination unit 44 (step S101).

Then, based on the detection output from the digital watermark information detecting section 41, the output condition determining section 44 determines whether or not the digital watermark information is superimposed on the luminance signal Y (step S102). When it is determined in the determination processing of step S102 that the digital watermark information is not superimposed, the output condition determination unit 44 adds the CGMS to the luminance signal Y based on the detection output from the CGMS-A detection unit 42.
It is determined whether information is added (step S1).
03).

In the determination processing of step S103, C
When it is determined that the GMS information is not added, the output condition determining unit 44 determines whether or not a pseudo-synchronization signal for preventing duplication is added to the luminance signal Y based on the detection output from the pseudo-synchronization signal detection unit 43. (Step S1)
04).

If it is determined in step S104 that the pseudo-synchronization signal for preventing duplication is not added, no additional information is superimposed or added to the luminance signal Y. 44 is
The switch 5 is controlled to be turned on so that the NTSC video signal formed by signal conversion is output through the output terminal 6 and a message is displayed on the LCD 9 so that the signal is converted. N formed
A notification is made that the duplication of the video signal of the TSC system is not prohibited and the signal can be output (step S105).

Also, in the determination processing of step S102, when it is determined that the digital watermark information is superimposed on the luminance signal Y, or in the determination processing of step S103. If it is determined that the CGMS information is added to the luminance signal, the output condition determining unit 44 determines whether the superimposed digital watermark information or the added CGMS information is the monitor receiver of this embodiment. It is determined whether or not this indicates that the duplication of the video signal input to is prohibited (step S106).

If it is determined in the determination processing of step S106 that the superimposed digital watermark information or the added CGMS information is information indicating that copying is prohibited, the output state determination unit 44 sets the switch 5 Is turned off, and the NTSC formed by signal conversion is controlled.
The video signal of the NTSC system, which is formed by not outputting the video signal of the NTSC system to the outside and displaying a message on the LCD 9 so as to be converted, is prohibited and cannot be output. Is notified (step S107).

If it is determined in step S106 that the superimposed digital watermark information or the added CGMS information does not indicate copy prohibition, the process proceeds to step S105, and the process proceeds to step S105. As described above, the NTSC video signal formed by signal conversion is output, and the NTSC video signal formed by signal conversion is notified through the LCD 9 that the output is possible. To

If it is determined in step S104 that there is a pseudo-synchronization signal for preventing duplication, it is determined that the video signal supplied to the monitor receiver of this embodiment is one whose duplication is prohibited. Then, the process proceeds to step S107, where the NTSC video signal formed by signal conversion is not output to the outside as described above, and the NTSC video signal formed by signal conversion is formed through the LCD 9. The video signal is notified that output is impossible.

As described above, the monitor receiver according to this embodiment includes the signal conversion unit 3, and includes the luminance signal Y, the color difference signal B-
It has a function of forming a video signal of the NTSC system by converting Y and R-Y signals and outputting this. And, as described above, usually, when signal conversion is performed, additional information superimposed and added to the video signal before signal conversion is
In the converted video signal, the additional information cannot be detected, for example, in a recording device that receives the converted video signal because the video signal is lost or deteriorated. Duplicate control may not be possible.

However, in the case of the monitor receiver of the first embodiment, the output of the video signal after signal conversion from the monitor receiver is superimposed and added to the video signal before signal conversion. Since the control is performed based on the additional information, the first
The copyright of the video signal input to the monitor receiver of the embodiment and converted into a signal can be reliably protected.

Therefore, for example, in a recording apparatus which receives the supply of the NTSC video signal formed by signal conversion in the monitor receiver of this embodiment, detectable digital watermark information, CGMS information, and pseudo-copy for copy prevention are provided. Even if additional information such as a synchronization signal is not superimposed or added again in the monitor receiver of this embodiment and output, the copyright of the video signal converted by the monitor receiver is reliably protected. can do.
Further, since the additional information is not superimposed or added again on the output video signal, the cost of the monitor receiver does not increase.

As described above, the monitor receiver according to the first embodiment includes a signal conversion section 3, an additional information detection / determination section 4,
A signal conversion device including a switch circuit 5, a display information generator 7, an LCD driver 8, and an LCD 9 is mounted, and has a function of converting an input video signal and outputting a converted video signal. It is provided. However, as described above, since the output of the converted video signal is output-controlled based on the additional information added to the input video signal, the monitor receiver of this embodiment is prohibited from being copied. There is no detour device for illegally duplicating the video signal.

In the first embodiment, 3
If the detection results of the three pieces of additional information match, the output can be determined without any problem. However, if even one of the detection results of the three pieces of additional information is different, in terms of high security, The determination result of the digital watermark information is prioritized, and then the determination result of the CGMS information for which generation control is possible is prioritized. Further, among the three pieces of additional information, the additional information having the condition closest to the copy prohibition may be prioritized.

In this embodiment, a pseudo synchronizing signal for preventing duplication is detected. But A
When a partial phase inversion of a color burst signal for detecting a duplication-recorded video signal to be prevented from being used normally is detected by utilizing a difference in characteristics of the PC, the duplication recording of the input video signal is restricted. It may be determined that it is.
Of course, both the pseudo sync signal and the partial phase inversion of the color burst signal are detected, and when either of them is detected, the input video signal is determined to be limited in copy recording. You can also.

[Second Embodiment] In the signal conversion processing, various signal conversions are performed in addition to the processing of converting the component signal composed of the luminance signal and the color difference signal into an NTSC video signal. For example, when the input signal is a video signal, various signal conversions such as conversion of the number of scanning lines, conversion of the scanning method, and conversion of the format of the video signal are performed.

Therefore, the signal conversion device according to the present invention will be described below using a specific example of signal conversion. The signal conversion device described below is used, for example, mounted on a monitor receiver or a video signal reproduction device, or for example, for converting a video signal that cannot be used due to a different signal format into a usable video signal. This is used as a signal conversion device.

[Regarding Signal Converter for Converting Number of Scanning Lines] FIG. 3 is a block diagram for explaining a signal converter for converting the number of scanning lines of a supplied video signal.
As shown in FIG. 3, the signal conversion device of this example includes an input terminal 11 for a video signal, a signal conversion unit 12, an additional information detection / determination unit 13, a switch circuit 14, an output terminal 15, a display information generation unit 16, an LCD It includes a driver 17, an LCD 18, and a control unit 19.

The control unit 19 includes a CPU, a ROM,
A microcomputer having a RAM, for example,
In accordance with an operation input from a user input through a key operation unit (not shown), a control signal for controlling each unit is formed and supplied to each unit to control the signal conversion device of this example. It is.

Then, the video signal supplied through the input terminal 11 is supplied to the signal processing section 12 and the additional information detecting / determining section 13. The signal conversion unit 12 in this example includes switch circuits 121 and 124, a scanning line interpolation unit 122, and a scanning line thinning unit 123.

For example, when converting a video signal having 525 scanning lines per frame into a video signal having 1080 scanning lines per frame, the scanning line interpolating section 122 converts the input video signal into a video signal. A process of interpolating the insufficient scanning line is performed. Further, for example, when converting a video signal having 1080 scanning lines per frame into a video signal having 525 scanning lines per frame, the scanning line thinning unit 123 converts the input video signal into a video signal. A process for thinning out scanning lines is performed.

As described above, the signal conversion unit 12 of this example includes:
Interpolation and decimation of scanning lines of an input video signal are enabled. Then, the signal conversion unit 1 is controlled by the control signal from the control unit 19 in accordance with the user's selection input.
The two switch circuits 121 and 124 are switched in conjunction with each other.

When a video signal having 525 scanning lines per frame is supplied and converted into a video signal having 1080 scanning lines per frame, the control unit 19 controls the video signal. Switch circuit 12
1 and 124 are both switched to the scanning line interpolation unit 122 side.

As a result, the number of scanning lines in one frame is 52
The five video signals are input terminal 11, switch circuit 121
Is supplied to the scanning line interpolating unit 122 through which the scanning lines are interpolated.
The video signal is converted into 80 video signals, and the converted video signal is supplied to the switch circuit 14 through the switch circuit 124.

When a video signal having 1080 scanning lines per frame is supplied and converted into a video signal having 525 scanning lines per frame, the control section 19 controls the video signal. Switch circuit 12
1 and 124 are both switched to the scanning line thinning unit 123 side.

As a result, the number of scanning lines in one frame is 10
Eighty video signals are input terminal 11, switch circuit 12
1, the scanning lines are supplied to the scanning line thinning unit 123, where the scanning lines are thinned out.
The converted video signal is supplied to the switch circuit 14 through the switch circuit 124.

On the other hand, the additional information detection / judgment unit 13 detects the additional information of the monitor receiver of the first embodiment.
It has the same configuration as the determination unit 4, and includes a digital watermark information detection unit, a CGMS-A detection unit, a pseudo synchronization signal detection unit,
An output condition determination unit is provided, which detects a plurality of pieces of additional information added to the supplied video signal, and, based on the detected additional information, determines whether or not the converted video signal can be output. judge.

Then, the additional information detecting / determining section 13 determines that the video signal after signal conversion cannot be output, similarly to the additional information detecting / determining section 4 of the first embodiment described above. At times, a control signal for turning off the switch circuit 14 is formed and supplied to the switch circuit 14. Also,
At this time, the additional information detection / judgment unit 13 controls the display information generation unit 16 to generate a message for notifying that the video signal after signal conversion cannot be output, and transmits this message to the LCD driver 17. To the LCD 18 through
It is displayed on the display surface of the LCD 18.

When the additional information detecting / determining section 13 determines that the converted video signal can be output, the additional information detecting / determining section 13 forms a control signal for turning on the switch circuit 14 and sends the control signal to the switch circuit 14. Supply. Further, the additional information detection / judgment unit 13 controls the display information generation unit 16 to generate a message for notifying that the converted video signal can be output, and transmits this message to the LCD driver 1.
The data is supplied to the LCD 18 through 7 and displayed on the display surface of the LCD 18.

In the case of this example, the signal conversion section 12 changes the number of scanning lines of the video signal. The digital watermark information superimposed on the video signal is degraded, and when the video synchronization signal is replaced, the CGMS information and the pseudo-sync signal for duplication prevention are lost. For this reason, even if additional information indicating that duplication is prohibited is superimposed or added to the input video signal, it may not be detected from the video signal after signal conversion and duplication control may not be properly performed. .

However, in the signal conversion apparatus of this example, as in the case of the monitor receiver of the first embodiment, the signal conversion is performed based on the additional information superimposed or added to the input video signal. Since the output of the subsequent video signal can be controlled, the copyright of the input video signal can be reliably protected.

In this example, a video signal having 525 scanning lines in one frame is converted into a video signal having 1080 scanning lines in one frame. Has been described as an example in which 1080 video signals are converted into 525 video signal lines per frame. However, it is not limited to this.

For example, conversion between a video signal having 525 scanning lines in one frame and a video signal having 720 scanning lines in one frame or conversion of a video signal having 720 scanning lines in one frame to 10
It is also possible to perform conversion between 80 video signals and video signals having 720 scanning lines per frame.

For example, by inputting the number of scanning lines per frame of the input video signal and the number of scanning lines per frame of the converted video signal to the signal converter of this example, A video signal having the number of lines can be formed.

[Regarding Signal Converter for Converting Scanning Method] FIG. 4 is a block diagram for explaining a signal converter for converting the scanning method of a supplied video signal.
In the signal processing device shown in FIG. 4, the same components as those of the signal processing device described above with reference to FIG. 3 are denoted by the same reference numerals, and description thereof will be omitted.

As shown in FIG. 4, the signal conversion device of this example includes an input terminal 11 for a video signal, a signal conversion unit 22, an additional information detection / judgment unit 13, a switch circuit 14, and an output terminal 1.
5. Display information generator 16, LCD driver 17, LCD
18 and a control unit 19.

The signal converter 22 of the signal converter of this example
Includes switch circuits 221 and 224, an interlace (interlaced scan) / non-interlace (sequential scan) conversion unit 222, and a non-interlace (sequential scan) / interlace (interlace scan) conversion unit 223. The switch circuits 221 and 224 are similar to the switch circuits 121 and 122 of the signal conversion unit 12 described above with reference to FIG.
9 is switched by a control signal from the control unit 9.

The video signal input through the input terminal 1 is an interlace video signal, and when the switch circuits 221 and 224 are switched to the interlace / non-interlace converter 222, the video signal is input through the input terminal 1. The input video signal is supplied to the interlace / non-interlace conversion unit 222 through the switch circuit 221.

The interlaced / non-interlaced converter 222 converts the interlaced video signal into a non-interlaced video signal by synthesizing a video signal for two fields forming a video of the same frame. This is supplied to the switch circuit 14 through the switch circuit 224.

When the video signal input through the input terminal 1 is a non-interlaced video signal and the switch circuits 221 and 224 are switched to the non-interlace / interlace converter 223,
The video signal input through the input terminal 1 is supplied to the non-interlace / interlace conversion unit 223 through the switch circuit 221.

The non-interlaced / interlaced converter 223 converts the non-interlaced video signal into an interlaced video signal by separating the video signal of the same frame into a two-field video signal. Is supplied to the switch circuit 14 through the switch circuit 224.

The switching circuit 14 is switched by the switching control signal from the additional information detecting / determining section 13 as described above. That is, also in the signal conversion device shown in FIG. 4, it is determined whether or not the video signal after the signal conversion can be output based on the additional information superimposed or added to the video signal before the signal conversion, Since the switch circuit 14 is switched in accordance with the result of this determination, the copyright of the input video signal to be signal-converted can be reliably protected.

In other words, even if the scanning method is converted and the additional information superimposed or added to the input video signal is lost or deteriorated, the additional information superimposed or added to the video signal before signal conversion is lost. Thus, the output control of the video signal after the signal conversion can be reliably and appropriately performed, and the copyright of the video signal to be converted can be reliably protected.

[Signal Converter for Converting Signal Format] [Signal Converter for Mutual Signal Conversion between HDTV and SDTV] FIG. 5 shows an HDTV (high-definition television).
FIG. 2 is a block diagram for explaining a signal conversion device capable of mutually converting a video signal of a TV system and a video signal of an SDTV (standard television) system. In the signal processing device shown in FIG. 5, the same reference numerals are given to the same components as those of the signal processing device described above with reference to FIG. 3, and description thereof will be omitted.

As shown in FIG. 5, the signal conversion apparatus of this example has a video signal input terminal 11, a signal conversion unit 32, an additional information detection / judgment unit 13, a switch circuit 14, and an output terminal 1.
5. Display information generator 16, LCD driver 17, LCD
18 and a control unit 19.

The signal converter 32 of the signal converter of this example
Are switch circuits 321, 324, HDTV / SDTV
A conversion unit 322 and an SDTV / HDTV conversion unit 323 are provided. The switch circuits 321 and 324 are configured as shown in FIG.
The switch circuit 12 of the signal conversion unit 12 described above using
Switching is performed by a control signal from the control unit 19 in accordance with the selection input from the user, similarly to the cases 1 and 122.

The video signal input through the input terminal 1 is an HDTV video signal, and the switch circuits 221 and 224 are connected to the HDTV / SDTV conversion unit 322.
The video signal input through the input terminal 1 is switched to the HD
This is supplied to the TV / SDTV conversion unit 322.

The HDTV / SDTV conversion section 322 converts the HDTV video signal into an SDTV video signal by thinning out the number of scanning lines or slowing down the number of clocks in the horizontal direction. The signal is supplied to the switch circuit 14 through the circuit 224.

The video signal input through the input terminal 1 is an SDTV video signal. When the switch circuits 321 and 324 are switched to the SDTV / HDTV conversion section 323, the video signal input through the input terminal 1 is input. The video signal is transmitted through the switch circuit 321 through the SDT.
It is supplied to the V / HDTV conversion unit 323.

The SDTV / HDTV conversion unit 323 is a
The video signal of the TV system is converted into a video signal of the HDTV system by, for example, interpolating a scanning line or increasing a clock frequency in the horizontal direction, and supplies this to the switch circuit 14 through the switch circuit 324.

The switching circuit 14 is switched by the switching control signal from the additional information detecting / determining section 13 as described above. That is, in the signal conversion device shown in FIG. 5 as well, based on the additional information superimposed or added to the video signal before signal conversion, it is determined whether the video signal after signal conversion can be output, The switch circuit 14 is switched according to the determination result.

Therefore, the video signal of the HDTV system is
When the signal is converted to a DTV video signal, and conversely, when the SDTV video signal is converted to an HDTV video signal, the additional information superimposed or added to the video signal before signal conversion. May be missing or deteriorated.

However, in this case, the output of the video signal after the signal conversion is controlled based on the additional information added to the video signal before the signal conversion. The copyright of the converted video signal can be reliably protected.

The HDTV / SDTV conversion unit 322
Is 5 from the 1080i, 720p, 525p video signal.
It can be converted to 25i video signal, and SDT
The V / HDTV conversion unit 323 can convert a 525i video signal into a 1080i, 720p, 525p video signal. Where 525, 720, 10
80 indicates the number of scanning lines, “i” indicates that the scanning method is interlaced, and “p” indicates that the scanning method is non-interlaced (progressive).

Then, the user can select which video signal is the HDTV video signal through, for example, a key operation unit connected to the control unit 19.

[Regarding a Signal Conversion Apparatus for Mutual Signal Conversion between VGA and TV] FIG. 6 shows a video signal of a computer image data format and a video signal of HDTV (high definition television) system or SDTV (standard television).
FIG. 2 is a block diagram for explaining a signal conversion device capable of mutual signal conversion with a video signal of a system. In the signal processing device shown in FIG. 6, the same reference numerals are given to the same components as those of the signal processing device described above with reference to FIG. 3, and description thereof will be omitted.

As shown in FIG. 6, the signal conversion apparatus of this example has a video signal input terminal 11, a signal conversion unit 42, an additional information detection / judgment unit 13, a switch circuit 14, and an output terminal 1.
5. Display information generator 16, LCD driver 17, LCD
18 and a control unit 19.

The signal converter 42 of the signal converter of this example
Is a switch circuit 421, 424, a computer image data format, in this example, VGA (Vi
VGA / T for converting a video signal of the [deoGraphics Array] standard into a video signal of the HDTV system.
V conversion unit 422, the reverse process of VGA / TV conversion unit 422, that is, TV / VGA conversion unit 423 that converts a video signal of the HDTV system into a video signal of the VGA standard.
It is provided with. The switch circuits 421 and 424 are
The switch circuit 1 of the signal conversion unit 12 described above with reference to FIG.
As in the case of 21 and 122, switching is performed by a control signal from the control unit 19 in accordance with a selection input from the user.

The video signal input through the input terminal 1 is a VGA standard video signal. When the switch circuits 221 and 224 are switched to the VGA / TV converter 422, the video signal is input through the input terminal 1. VGA / TV through the switch circuit 421
The data is supplied to the conversion unit 422.

The VGA / TV converter 422 converts a video signal of the VGA standard for computer processing into a video signal of the HDTV system, for example, to convert a video signal created using a computer into a monitor receiver. The video signal is supplied and converted into a signal of a format capable of displaying the video signal and output. The video signal after the signal conversion is supplied to the switch circuit 14 through the switch circuit 424.

The video signal input through the input terminal 1 is an HDTV video signal. When the switch circuits 421 and 424 are switched to the TV / VGA converter 423, the video signal is input through the input terminal 1. The video signal is transmitted to the TV / VGA through the switch circuit 421.
This is supplied to the conversion unit 423.

The TV / VGA conversion section 423 converts an HDTV video signal into a GVA video signal. As a result, for example, a video signal photographed using a video camera or the like can be output as a signal that can be processed using a computer. This HDT
The video signal converted into the V-system video signal is supplied to the switch circuit 14 through the switch circuit 424.

In this case as well, switch circuit 14
Is switched by the switching control signal from the additional information detection / determination unit 13 as described above. That is, also in the signal conversion device shown in FIG. 6, based on the additional information superimposed or added to the video signal before signal conversion, it is determined whether the video signal after signal conversion can be output, The switch circuit 14 is switched according to the determination result.

Therefore, the VGA standard video signal is
When the signal is converted to a TV video signal, and conversely, when the HDTV video signal is converted to a VGA video signal, the additional information superimposed or added to the video signal before the signal conversion. May be missing or deteriorated.

However, also in this example, the output of the video signal after the signal conversion is controlled based on the additional information added to the video signal before the signal conversion. Copyright can be reliably protected.

The additional information detecting / determining section 13 of the signal converter described above with reference to FIGS. 3 to 6 is the same as the additional information detecting / determining section of the first embodiment described above with reference to the flowchart of FIG. As in the case of No. 4, a plurality of pieces of additional information added to the signal before signal conversion are detected, and the output of the signal after signal conversion is controlled based on the detected additional information. Also, the signal conversion device of this example has been described as performing mutual signal conversion between a VGA video signal and an HDTV video signal, but the VGA video signal and the SDT
Of course, it is also possible to perform mutual signal conversion of V-system video signals.

[Regarding Signal Converter for Performing Signal Conversion such as NTSC → PAL] FIG. 7 is a diagram for explaining a signal converter capable of converting an NTSC video signal into a PAL video signal and a SECAM video signal. It is a block diagram of. In the signal processing device shown in FIG.
The same reference numerals are given to components configured in the same manner as in the above-described signal processing device using, and description thereof will be omitted.

As shown in FIG. 7, the signal conversion apparatus of this example has a video signal input terminal 11, a switch circuit 14, an output terminal 15, a display information generator 16, an LCD driver 17,
LCD 18, control unit 19, D / A conversion circuit 5
1, a signal conversion unit 52, an A / D conversion circuit 53, and an additional information detection / judgment unit 54.

In this example, as shown in FIG.
A D / A conversion circuit 51 and an A / D conversion circuit 53 are provided.
This is converted into an analog video signal. And this is P
After converting the video signal into an AL video signal or a SECAM video signal, the video signal is further converted into a digital signal and output.

The signal converter 52 of the signal converter of this example includes switch circuits 521 and 524, an NTSC / PAL converter 522 for converting an NTSC analog video signal into a PAL analog video signal, and an NTSC / PAL converter 522.
/ SCCAM conversion unit 5 for converting an analog video signal of a CDMA system into an analog video signal of a SECAM system
2 and 3. Switch circuits 521, 52
4 is switched by a control signal from the control unit 19 in response to a selection input from the user, similarly to the switch circuits 121 and 122 of the signal conversion unit 12 described above with reference to FIG.

Then, the switch circuits 521 and 524 are
When switched to the NTSC / PAL conversion section 522 side, the signal is input through the input terminal 1 and is input to the D / A conversion circuit 5.
1 is converted to an analog video signal by the NTSC system 1 through the switch circuit 521.
It is supplied to the PAL conversion unit 522.

The NTSC / PAL conversion section 522 converts the NTSC video signal into a PAL video signal as described above,
It is supplied to the switch circuit 14.

The switch circuits 521 and 524 are connected to N
When the signal is switched to the TSC / SECAM conversion unit 523, the NTSC video signal input through the input terminal 1 and converted to the analog video signal by the D / A conversion circuit 51 is transmitted through the switch circuit 521 to the NTSC video signal.
/ SECAM converter 523.

As described above, the NTSC / SECAM converter 523 converts the NTSC video signal into a SECAM signal.
The video signal is converted into a video signal of a system and supplied to the switch circuit 14 through the switch circuit 524.

On the other hand, the additional information detecting / determining section 54
In the same manner as in the case of the monitor receiver described above, each of a plurality of pieces of additional information superimposed or added to the supplied video signal is detected, and based on the detected additional information, the video signal after signal conversion is detected. Is controlled.

In this example, additional information detecting / determining section 5
Reference numeral 4 includes a digital watermark information detection unit, a CGMS-D detection unit, and an output condition determination unit. Here, CGM
SD indicates a copy generation restriction system of the CGMS system for the digital video signal, and the CGMS-D detection unit is added to an area separated from the video data of the supplied digital video signal. Bit CDMS information is detected.

Then, the additional information detecting / determining section 54 determines whether or not the converted video signal can be output based on the detected additional information.
A switching control signal for controlling the switch circuit 14 is formed and supplied to the switch circuit 14. That is, also in this example, the switch circuit 14 is switched by the switching control signal from the additional information detection / determination unit 54.

The video signal of the NTSC system is converted to a PAL signal.
If the signal is converted to a video signal of the
When a video signal of the C system is converted into a video signal of the SECAM system, it is considered that additional information superimposed or added to the video signal before the signal conversion may be lost or deteriorated. Can be

However, also in this example, the output of the video signal after the signal conversion is controlled based on the additional information added to the video signal before the signal conversion, so that the video signal supplied to this signal conversion device is controlled. The copyright of the signal can be reliably protected.

In the case of this example, if additional information for inhibiting or restricting duplication is not superimposed or added to the video signal before signal conversion, the switch circuit 14 Since the analog video signal is turned on by the switching control signal from the detection / judgment unit 54, the converted analog video signal is supplied to the A / D conversion circuit 53, where it is converted into a digital video signal and output. You.

As described above, in the case of this example, the signal conversion from a digital signal to an analog signal and the signal conversion from an analog signal to a digital signal are also performed, but they are added to the video signal before the signal conversion. Since the output control of the video signal is performed based on the additional information, the copyright of the video signal supplied to the signal conversion device and output after the signal conversion can be reliably protected.

Also, when the supplied digital signal is converted into an analog signal and output, or when the supplied analog signal is converted into a digital signal and output, the video signal before the signal conversion is added. Since the output control of the video signal can be performed based on the added information, the copyright of the video signal supplied to the signal conversion device and output after the signal conversion can be reliably protected. .

Further, in this example, the description has been made assuming that the video signal of the NTSC system is converted into the video signal of the PAL system and the SECAM system.
Similarly, in the case of converting an AM video signal into an NTSC video signal, the copyright of the input and converted video signal can be protected.

[Regarding Signal Converter for Converting Digital Video Signal Compression Method] FIG. 8 is a block diagram for explaining a signal converter for converting the supplied digital video signal compression method. In this example, the signal conversion device shown in FIG. 8 is described as a device that converts a digital video signal that has been data-compressed by the MPEG system into a digital video signal that has been data-compressed by a moving image compression system called a VD system.

As shown in FIG. 8, the signal conversion device of this example has a digital video signal input terminal 71, IEEE 139
4 interfaces 72, 78, descrambler 7
3, a compression method conversion unit 74, an additional information detection / determination unit 75,
Encryption unit 76, switch circuit 77, digital video signal output terminal 79, display information generation unit 80, LCD driver 8
1, an LCD 82, and a control unit 83.

Then, the input terminal 71 and the IEEE1394
The digital video signal compressed through the MPEG system and input through the interface 72 is supplied to the descrambler 73. The de-scramble unit 73
A descrambling process for descrambling the supplied digital video signal is performed.

The descrambled digital video signal is supplied to a compression format converter 74 and an additional information detector / determiner 75.
And supplied to. As described above, in this example, the compression conversion unit 74 converts a digital video signal that has been data-compressed by the MPEG system into a digital video signal that has been data-compressed by the VD system. The digital video signal after the signal conversion in which the compression method has been converted is supplied to the encryption unit 76, where the digital video signal is subjected to encryption processing (scramble processing), and the scrambled digital video signal is supplied to the switch circuit 77. Is done.

On the other hand, the additional information detecting / determining section 75
In the same manner as in the case of the monitor receiver described above, each of a plurality of pieces of additional information superimposed or added to the supplied video signal is detected, and based on the detected additional information, the video signal after signal conversion is detected. Is controlled.

In this example, the additional information detecting / determining section 75 includes a digital watermark information detecting section, a CGMS-D detecting section,
An output condition determining unit is provided. Then, as described above, the CGMS-D detection unit detects 2-bit CDMS information added to an area separated from the video data in the supplied digital video signal.

Then, the additional information detecting / determining section 75 determines whether or not the converted video signal can be output based on the detected additional information, and according to the determination result,
A switching control signal for controlling the switch circuit 77 is formed and supplied to the switch circuit 77. That is, also in this example, the switching circuit 77 is switched by the switching control signal from the additional information detection / determination unit 75.

Thus, when additional information for inhibiting duplication is not superimposed or added to the video signal before signal conversion, the switch circuit 77 is turned on.
The converted digital video signal scrambled by the encryption unit 76 is output through an IEEE 1394 interface 78 and an output terminal 79.

When additional information for inhibiting duplication has been superimposed and added to the video signal before signal conversion, the switch circuit 77 is turned off.
The digital video signal after signal conversion, which has been scrambled in step 6, is not output from the signal converter of this example.

In the interface of the IEEE 1394 standard, the transmission digital information is scrambled as described above in order to prevent unauthorized duplication, but the output destination is the copy generation limit based on digital watermark information or CGMS information. It verifies whether the device is compatible with the process (compliant device) or the device that is not compatible with the copy generation restriction process (non-compliant device). The information and the digital watermark information are verified, and it is determined whether or not to transmit the key to the output destination for decrypting the encryption according to the verification result.

The above communication control method is based on IEEE1394.
This is called a secure bus, and the digital interface is designed to effectively prevent duplication.

Therefore, in the case of the signal recording apparatus shown in FIG. 8, the encryption is decrypted from the supply apparatus of the input video signal to the signal conversion apparatus shown in FIG. 8 using the function of the secure bus. If the key for transmitting the video signal is not transmitted, or if the destination device that supplies the video signal from the signal conversion device shown in FIG. 8 is a non-compliant device, this is added from the control unit 83. The output condition determination unit of the information detection / determination unit 75 is notified.

When the key for decrypting the data has not been transmitted, or when the other device is a non-compliant device, the additional information detection /
The output state determination unit of the determination unit 75 forms a switching control signal for turning off the switch circuit 77, and supplies this to the switch circuit 77.

Thus, regardless of the additional information superimposed or added to the supplied digital video signal before signal conversion, if the key for decrypting the data has not been transmitted, or the destination device Is a non-compliant device, a digital information signal may not be output from the signal conversion device shown in FIG.

As described above, the signal conversion apparatus of this example can control the output of the video signal after the signal conversion based on the additional information superimposed and added to the video signal before the signal conversion. The copyright of the video signal supplied to the signal conversion device of this example can be reliably protected.

Further, when a key for decrypting the data has not been transmitted, or when the destination device is a non-compliant device, the additional information detection / determination unit acquired by the secure bus function. The information supplied to the switch circuit 7 is regarded as information equivalent to the additional information added to the input digital video signal, and the information obtained by the secure bus function is taken into consideration.
7 can be controlled.

In this example, the additional information detection /
The determination unit 75 determines the state of output control of the converted video signal,
Display information generator 80, LCD driver 81, LCD 82
Is notified to the user.

Next, the operation of the additional information detecting / determining sections 54 and 75 of the signal conversion device described above will be described with reference to FIGS. 7 and 8 while referring to the flowchart of FIG. When the power is turned on to the signal conversion device and a digital video signal is input through the input terminals 11 and 71, the digital video signal is also supplied to the additional information detection / determination units 54 and 75. Then, a detection process of the added additional information is executed (step S201).

Then, additional information detecting / determining sections 54 and 75
Determines whether additional information is detected from the supplied digital video signal (step S202). When it is determined in the determination process of step S202 that the additional information has been detected, it is determined whether the detected additional information indicates duplication prohibition (step S20).
3).

In the determination processing of step S203, when it is determined that the detected additional information indicates that copying is prohibited, the additional information detection / determination units 54 and 75 turn off the output control switch circuits 14 and 77. And notifies the user via the LCDs 18 and 82 that the converted video signal is a signal that cannot be output (step S204).

When it is determined in step S202 that no additional information has been detected, or when it is determined in step S203 that the detected additional information does not indicate duplication prohibition, , The additional information detection / determination units 54 and 75 control the output control switch circuits 14 and 77 to turn on,
LCD indicates that the converted video signal is a signal that can be output
The user is notified through steps 18 and 82 (step S20).
5).

As described above, when the digital signal supplied to the signal conversion device is converted into a signal and output, the signal is supplied based on the additional information added to the signal before the signal conversion. The output of the converted signal can be controlled. This makes it possible to reliably and appropriately protect the copyright of the digital signal to be converted and output by the signal conversion device.

[Third Embodiment] FIG. 10 is a block diagram for explaining an audio signal signal conversion apparatus according to the third embodiment for converting an audio signal into a signal and outputting the converted signal.
The signal converter according to the third embodiment can convert the sampling frequency of an input audio signal.

Further, the audio signal input to the signal conversion apparatus according to the third embodiment has digital watermark information superimposed thereon as additional information, and SCMS additional information (hereinafter referred to as SCMS information). ) Will be described.

As shown in FIG. 10, the signal converter according to the third embodiment includes an input terminal 91, a sampling frequency converter 92 as a signal converter, an additional information detection / determination unit 93, a switch circuit 94, Display information generator 95, LC
A D driver 97, an LCD 98, and a control unit 99 are provided.

The control unit 99 includes a CPU, a ROM,
The microcomputer is provided with a RAM and the like, and controls each unit of the signal conversion device according to the third embodiment. The control 99 also instructs the sampling frequency of the audio signal to the sampling frequency conversion unit 92 in response to the user's selection input of the sampling frequency through a key operation unit (not shown), and also sends the additional information detection / determination unit 93 Notice.

The audio signal input through the input terminal 91 is supplied to a sampling frequency conversion unit 92 and an additional information detection / determination unit 93. In the third embodiment, the sampling frequency conversion unit 92 performs signal conversion for converting the sampling frequency of the supplied audio signal based on the sampling frequency instruction information from the control unit 99. Is supplied to the switch circuit 94.

The sampling frequency converter 92 according to the third embodiment sets the sampling frequency of the input audio signal to 8 kHz or 11 kHz based on an instruction input from the user.
Hz, 22 kHz, 32 kHz, 44.1 kHz, 48
It can be converted to various sampling frequencies such as kHz, 96 kHz, 128 kHz and the like.

As shown in FIG. 10, the additional information detection / determination section 93 includes a digital watermark information detection section 931, an SCMS detection section 932, and an output condition determination section 933. The digital watermark information detecting unit 931 detects digital watermark information superimposed on the audio signal before the sampling frequency is converted, and supplies the detection result to the output condition determining unit 933. Further, the SCMS detection unit detects SCMS information from the audio signal before the sampling frequency is converted, and supplies the detection result to the output condition determination unit 933.

[0200] The output condition judging section 933 is based on the detection results from the digital watermark information detecting section 931 and the SCMS detecting section 932 and the sampling frequency of the audio signal after the signal conversion from the control section 99. A switching control signal for switching and controlling the switch circuit 94 for controlling the output of the audio signal is formed and supplied to the switch circuit 94.

In the third embodiment, the output condition judging section 933 indicates that either the digital watermark information or the SCMS information prohibits the duplication of the audio signal, and outputs the signal after the signal conversion. When the sampling frequency of the audio signal is 44.1 kHz, a switching control signal for turning off the switch circuit 94 is formed.

The output condition determination unit 933 determines that the sampling frequency of the audio signal after signal conversion is 44.1 kHz.
If not, or if the digital watermark information does not indicate duplication prohibition, or if there is no digital watermark information and the SCMS information does not indicate duplication prohibition, a switching control signal for turning on the switch circuit 94 To form

As described above, the condition for controlling the output of the converted signal up to the sampling frequency of the converted audio signal is determined by using a small magneto-optical disk called an MD (mini disk) as a recording medium. This is to surely prevent a high-quality audio signal from being illegally copied by a recording / reproducing device (hereinafter, referred to as an MD device) to be used.

That is, the sampling frequency of the audio signal of the MD device is 44.1 kHz. In the case of other sampling frequencies, the output of the audio signal after the signal conversion from the signal processing device shown in FIG. enable.

[0205] Thus, when the additional information indicating the duplication prohibition is superimposed and added to the audio signal before the signal conversion,
By preventing the output of the 4.1 kHz digital audio signal, the signal converter of the third embodiment ensures that the copyright of the audio signal supplied to the signal converter and converted is properly and appropriately applied. Can be protected.

Next, with reference to the flowchart of FIG. 11, the additional information detection / judgment unit 93 will be described for the output control of the audio signal formed by signal conversion performed in the signal conversion circuit of the third embodiment. This will be mainly described.

When the power of the signal converter of the third embodiment is turned on, the user selects and inputs the sampling frequency, and the audio signal is supplied through the input terminal 91, the additional information detection / determination unit At 93, FIG.
The processing shown in the flowchart of FIG.

First, the digital watermark information detecting section 931 and the SCMS detecting section 932 of the additional information detecting / determining section 93 determine
Digital watermark information and SCMS information are detected (step S301), and the detection result is supplied to the output condition determination unit 933.

The output condition determining unit 933 determines whether digital watermark information has been detected based on the detection result from the digital watermark information detecting unit 931 (step S30).
2). When it is determined in the determination processing of step S302 that the digital watermark information has not been detected, it is determined whether or not the SCMS information added to the audio signal indicates that copying is prohibited (step S303).

In the determination processing of step S303, S
When it is determined that the CMS information does not indicate duplication prohibition, the output condition determination unit 944 controls the switch circuit 94 to be turned on so that the audio signal after signal conversion is output through the output terminal 95. Then, a notification is made through the LCD 98 that the converted audio signal can be output (step S304).

When it is determined in step S302 that digital watermark information has been detected, it is determined whether the detected digital watermark information indicates that copying is prohibited (step S305). In the determination processing in step S305, when it is determined that the digital watermark information indicates that copying is prohibited, the processing in step S303 is performed.
SCM added to the audio signal in the determination process of
If it is determined that the S information indicates that copying is prohibited, the output condition determining unit 933 determines, based on the information indicating the sampling frequency from the control unit 99,
If the sampling frequency of the audio signal after signal conversion is 44.
It is determined whether the frequency is 1 kHz (step S306).

In the determination processing in step S306, the sampling frequency of the audio signal after signal conversion is 44.1.
When the frequency is determined to be kHz, the switch 94 is turned off so as not to output the audio signal after the signal conversion, and the LCD 98 is notified that the audio signal after the signal conversion cannot be output. (Step S307).

In the determination processing of step S 305, when it is determined that the detected digital watermark information does not indicate duplication inhibition, and in the determination processing of step S 306, the information of the sampling frequency from the control unit 99 is If the frequency is not 44.1 kHz, the converted audio signal whose sampling frequency has been converted is
It is determined that the output is possible, and the process of step S304 is performed. That is, the switch circuit 94 is turned on,
The audio signal after the signal conversion is output through the output terminal 95, and the user is notified through the LCD 98 that the audio signal after the signal conversion can be output.

As described above, the signal converter according to the third embodiment performs signal conversion for changing the sampling frequency. However, the additional information superimposed and added to the audio signal before the signal conversion is duplicated. Is prohibited, and when the sampling frequency of the audio signal after signal conversion is 44.1 kHz, the signal is not output from this signal conversion device. Thus, it is possible to prevent the audio signal whose duplication is prohibited from being digitally recorded on the MD (mini disc).

Further, in the third embodiment,
Although the case where the sampling frequency of the audio signal is converted has been described as an example, the signal conversion is not limited to this. For example, converting an analog audio signal to a digital audio signal, converting a compression method of a digital audio signal,
When performing various signal conversions such as converting the number of bits of a digital audio signal, the signal conversion device and signal conversion method according to the present invention can be applied.

Note that the signal conversion device and the signal conversion method according to the present invention are not simply applied to the signal conversion device. As in the case of the first embodiment described above, the monitor conversion device and the STB ( The present invention can be applied to various devices such as digital broadcast receivers, playback devices, recording devices, and communication devices, which are called “set-top boxes”.

That is, various devices for receiving the supply of the information signal, converting the signal, and outputting the information signal, reading the information signal recorded on the recording medium, converting the signal, and outputting the converted signal. The signal conversion device and the signal conversion method according to the present invention may be applied to various reproduction devices configured to receive the information signal, and various recording devices configured to convert the information signal into a signal and record the signal on a recording medium. Can be applied.

The additional information added to the input signal includes the above-described digital watermark information, CGMS information,
It is not limited to the pseudo-synchronization signal for preventing duplication and the SCMS information. For example, prohibiting or restricting duplication such as additional information of the XDS system added to the horizontal section of the 21st line of the vertical blanking erasing period is used. Various types of additional information used for performing the operation can be used. In this case, the additional information detection / determination unit may be provided with a detection unit for the target additional information. Needless to say, it is not necessary to provide all the detection units for the additional information described above, and only the detection units for the necessary additional information may be provided.

In the above-described embodiment, when the input signal is a signal whose duplication is prohibited or restricted, the output of the signal after the signal conversion is not performed. It is not limited to. For example, when the input signal is a video signal, it cannot be used normally by displaying a display message such as "duplication is prohibited" on the entire display image with spur imposition. Output may be performed in this manner.

Further, even when the input signal is an audio signal, the signal may be output in such a manner that normal use cannot be performed by mixing noise. In other words, if the input signal is a signal whose duplication is prohibited or restricted, the signal after signal conversion may be prevented from being used normally.

In the above-described embodiment, the user is notified of the output control state of the converted signal by displaying a message on the LCD. However, the present invention is not limited to this.

For example, when the input signal is a signal to which additional information for inhibiting duplication is added and the signal after signal conversion cannot be output, the red LED (light emitting diode) is turned on or blinks, and When the signal after signal conversion can be output, the user may be notified of the output control state of the signal after signal conversion by lighting or blinking an LED in green.

Further, in the above-described embodiment, the case where the video signal and the audio signal are the input signals has been described as an example, but the input signals are not limited to this. For example,
Of course, various data such as text data and programs may be used.

The signal conversion is not limited to that described in the above embodiment. For example, in the case of a video signal, three primary color signals (RGB signals) are converted to NTSC signals.
The present invention is applicable to various kinds of signal conversion such as conversion of a video signal of a system, a luminance signal and a color difference signal, conversion of a bit number of a digital video signal, and conversion of a communication protocol of transmission data. Apparatus and signal conversion method can be applied.

[0225]

As described above, according to the signal converter of the first aspect of the present invention, the use restriction of the signal after the signal conversion is appropriately determined based on the additional information added to the input signal. Since it is performed, the copyright of the signal to be converted can be appropriately protected.

Further, according to the signal conversion device of the present invention, even if the scanning method of the input video signal is converted,
Based on the additional information added to the video signal before the signal conversion, the use restriction on the video signal after the signal conversion is appropriately performed, so that the copyright of the video signal to be converted can be appropriately protected. it can.

According to the signal conversion apparatus of the third aspect of the present invention, even if the input video signal is converted into a video signal having a different number of scanning lines by performing interpolation or thinning of the scanning line, the signal conversion is performed. Based on the additional information added to the previous video signal, the usage restriction of the video signal after the signal conversion is appropriately performed, so that the copyright of the video signal to be converted can be appropriately protected.

According to the signal converter of the fourth aspect of the present invention, even when the format of the input video signal is converted and output, the use restricting means converts the input video signal to the input video signal before the signal conversion. Since the use restriction on the video signal after the signal conversion is appropriately performed based on the additional information added, the copyright of the video signal to be signal-converted can be appropriately protected.

According to the signal conversion device of the ninth aspect, the use restriction of the audio signal after the signal conversion is appropriately performed based on the additional information added to the input audio signal. The copyright of the audio signal to be signal-converted can be appropriately protected.

According to the signal conversion device of the present invention, when the signal after signal conversion is not output, it is possible to notify the user of the signal conversion device of why the signal is not output. The reason why a signal after signal conversion is not output can be promptly notified. Further, when the signal after signal conversion is not output, it is possible to prevent the user from mistakenly assuming that the device is out of order.

According to the signal conversion apparatus of the present invention, the digital watermark information which is difficult to remove or falsify is superimposed on the input signal, so that the copyright protection for the input signal can be reliably and accurately performed. Can be done.

According to the signal conversion device of the present invention, the copyright of the digital input signal which is accurately and appropriately converted by using the additional information added to the digital signal is protected. Can be.

According to the signal conversion apparatus of the present invention, even if one additional information is illegally removed or falsified, the other additional information is used to ensure the signal is properly and appropriately. The output of the converted signal can be controlled. Therefore, the reliability of the output control of the signal after the signal conversion can be improved.

According to the signal conversion apparatus of the present invention, it is difficult to remove or falsify the digital watermark information. Therefore, even if the additional information other than the digital watermark information is illegally removed or falsified. The digital watermark information remains superimposed on the input signal. Therefore, by using the digital watermark information, the output control of the signal after the signal conversion can be performed reliably and accurately.

According to the signal converter of the present invention, the output of the signal after signal conversion can be accurately controlled by, for example, CGMS information added to the digital input signal. The output of the signal after the signal conversion can be controlled depending on the presence or absence of key information for decrypting the encryption and the type of the device to which the signal after the signal conversion is provided.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a monitor receiver to which an embodiment of a signal conversion device according to the present invention is applied.

FIG. 2 is a flowchart for explaining output control processing of a signal after signal conversion performed by an additional information detection / determination unit of the monitor receiver shown in FIG. 1;

FIG. 3 is a block diagram for explaining another example of the signal conversion device according to the present invention.

FIG. 4 is a block diagram for explaining another example of the signal conversion device according to the present invention.

FIG. 5 is a block diagram for explaining another example of the signal conversion device according to the present invention.

FIG. 6 is a block diagram for explaining another example of the signal conversion device according to the present invention.

FIG. 7 is a block diagram for explaining another example of the signal conversion device according to the present invention.

FIG. 8 is a block diagram for explaining another example of the signal conversion device according to the present invention.

FIG. 9 is a flowchart for describing output control processing of a signal after signal conversion performed by an additional information detection / determination unit of the signal conversion device shown in FIGS. 7 and 8;

FIG. 10 is a block diagram for explaining another example of the signal conversion device according to the present invention.

FIG. 11 is a flowchart for describing output control processing of a signal after signal conversion performed by an additional information detection / determination unit of the signal conversion device shown in FIG. 10;

[Explanation of symbols]

1a, 1b, 1c ... input terminals, 2 ... CRT display section, 3 ...
Signal conversion unit, 4 additional information detection / determination unit, 5 output switch circuit, 6 output terminal, 7, 16 display information generation unit, 8, 17 LCD driver, 9, 18 LCD,
12, 22 ... signal converter, 32, 42 ... signal converter, 5
1: D / A conversion circuit, 52: Signal conversion circuit, 53: A /
D conversion circuit, 54 additional information detection / determination unit, 71 input terminal, 72, 78 IEEE 1394 interface, 73 descrambling unit, 74 compression method conversion unit, 75 additional information detection / determination unit, 76 ... Encryption unit, 7
7: output control switch circuit, 79: output terminal, 19,
83: control unit, 91: input terminal, 92: sampling frequency conversion unit, 93: additional information detection / judgment unit, 9
4 ... Switch circuit for output control, 95 ... Output terminal, 80,
93: display information generator, 81, 94: LCD driver,
82, 95: LCD, 931: Digital watermark information detection unit,
932: SCMS detector, 933: Output condition determiner, 9
9 ... Control section

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04N 7/08 H04N 7/08 Z 7/081 (72) Inventor Jun Hirai 6-chome Kitashinagawa, Shinagawa-ku, Tokyo No. 7-35 Sony Corporation F-term (reference) 5C053 FA13 KA25 LA06 5C063 AA01 AA06 AB01 AB03 AC01 DA07 DA20 5D044 AB05 AB07 DE04 DE15 DE43 DE44 DE50 GK08 GK17 HL08 HL11 JJ07 5J064 AA00 BA01 BB13 BC03 ABC0130

Claims (36)

[Claims] 1. A signal conversion means for performing a signal conversion process on an input signal, detecting additional information added to the input signal, and the additional information indicates prohibition of duplication or restriction of duplication. Discriminating means for discriminating whether or not the additional information is a signal from the signal converting means when the discriminating means discriminates that the additional information indicates prohibition of copying or restriction of copying. A signal conversion device comprising: a use limiting unit configured to disable use of the converted signal. 2. The method according to claim 1, wherein the input signal is a video signal, and the signal conversion means converts the sequential scanning into an interlaced scan or converts the interlaced scanning into a sequential scan. A signal conversion device according to claim 1. 3. The signal conversion device according to claim 1, wherein said input signal is a video signal, and said signal conversion means converts the number of scanning lines. 4. The signal conversion apparatus according to claim 1, wherein said input signal is a video signal, and said signal conversion means converts a signal format. 5. The conversion of the signal format performed by the signal conversion means converts a high-definition television signal into a standard television signal or a standard television signal into a high-definition television signal. The signal conversion device according to claim 4. 6. The conversion of the signal format performed by the signal conversion means includes converting a video signal of an image data format for computer processing into a high-definition television signal or a standard television signal, or a high-definition television signal or The signal conversion device according to claim 4, wherein the standard television signal is converted into a video signal in an image data format for computer processing. 7. The signal conversion device according to claim 4, wherein said signal format conversion performed by said signal conversion means converts an analog video signal into a digital video signal. 8. The signal conversion device according to claim 4, wherein the conversion of the signal format performed by the signal conversion means is a conversion of a data compression method. 9. The signal conversion device according to claim 1, wherein said input signal is an audio signal. 10. The signal conversion apparatus according to claim 9, wherein said signal conversion processing performed by said signal conversion means is conversion of a sampling frequency of said audio signal. 11. A signal conversion apparatus according to claim 9, wherein said signal conversion processing performed by said signal conversion means is conversion of a data compression method of said audio signal. 12. The signal conversion device according to claim 9, wherein said signal conversion processing performed by said signal conversion means is conversion from an analog audio signal to a digital audio signal. 13. The apparatus according to claim 1, further comprising a notifying unit for notifying a use restriction state of the converted signal converted by the signal converting unit based on a result of the determination by the determining unit. Signal converter. 14. The additional information is digital watermark information formed by a digital watermark technique. The discriminating means detects the digital watermark information superimposed on the input signal, and detects the detected digital watermark information. 2. The signal conversion device according to claim 1, wherein it is determined whether or not indicates that duplication is prohibited or duplication is restricted. 15. The input signal is a digital signal, wherein the determination means detects additional information added to the digital signal, and the detected additional information indicates that the duplication is prohibited or the duplication is restricted. The signal conversion device according to claim 1, wherein it is determined whether or not the signal is present. 16. An input signal to which a plurality of different types of additional information are added, and wherein said discriminating means determines that any one of said plurality of different types of additional information is prohibited from being copied or copied. 2. The signal conversion device according to claim 1, wherein the use restriction unit disables the use of the signal after the signal conversion when the signal indicates the restriction of the signal conversion. 17. The signal conversion apparatus according to claim 16, wherein one of the plurality of different types of additional information is digital watermark information formed by a digital watermark technique. 18. The signal conversion device according to claim 1, wherein the input signal is a digital signal provided after being subjected to an encryption process. 19. When converting an input signal and outputting the converted signal, detecting additional information added to the input signal, and the detected additional information indicates that the duplication is prohibited or the duplication is restricted. If the detected additional information indicates that the duplication is prohibited or the duplication is restricted, the signal after the signal conversion is disabled. A signal conversion method. 20. The signal conversion method according to claim 19, wherein said input signal is a video signal, and said signal conversion is to convert a progressive scan into an interlaced scan or to convert a skipped scan into a sequential scan. Method. 21. The signal conversion method according to claim 19, wherein said input signal is a video signal, and said signal conversion is performed by converting the number of scanning lines. 22. The signal conversion method according to claim 19, wherein the input signal is a video signal, and wherein the signal conversion converts a signal format. 23. The signal processing method according to claim 22, wherein said signal format conversion comprises converting a high definition television signal into a standard television signal or converting a standard television signal into a high definition television signal. Signal conversion method. 24. The signal format conversion according to claim 1, wherein the video signal in the image data format for computer processing is converted into a high definition television signal or a standard television signal.
23. The signal conversion method according to claim 22, wherein the high-definition television signal or the standard television signal is converted into a video signal in an image data format for computer processing. 25. The signal conversion method according to claim 22, wherein the conversion of the signal format converts an analog video signal into a digital video signal. 26. The signal conversion method according to claim 22, wherein the conversion of the signal format is performed by converting a data compression method. 27. The signal conversion method according to claim 19, wherein said input signal is an audio signal. 28. The signal conversion method according to claim 27, wherein said signal conversion converts a sampling frequency of said audio signal. 29. The signal conversion method according to claim 27, wherein said signal conversion is performed by converting a data compression method of said audio signal. 30. A signal conversion method according to claim 27, wherein said signal conversion is conversion from an analog audio signal to a digital audio signal. 31. Restriction on use of a signal after signal conversion based on a result of determining whether or not additional information added to the input signal indicates prohibition of duplication or restriction of duplication. 2. A status notification device.
10. The signal conversion method according to 9. 32. The additional information is digital watermark information formed by a digital watermark technique, wherein the digital watermark information superimposed on the input signal is detected, and the detected digital watermark information is prohibited from being copied. 20. The signal conversion method according to claim 19, wherein it is determined whether or not it indicates a restriction on duplication. 33. The input signal is a digital signal, wherein additional information added to the digital signal is detected, and the detected digital signal indicates prohibition of duplication or restriction of duplication. 20. The signal conversion method according to claim 19, wherein it is determined whether there is a signal. 34. A plurality of different types of additional information are added to the input signal, and one of the plurality of different types of additional information indicates that the duplication is prohibited or the duplication is restricted. 20. The signal conversion method according to claim 19, wherein when the signal is present, the signal after the signal conversion is disabled. 35. The signal conversion method according to claim 34, wherein one of the plurality of different types of additional information is digital watermark information formed by a digital watermark technique. 36. The signal conversion method according to claim 19, wherein said input signal is a digital signal provided by being subjected to an encryption process.